Submission to VIJ 2023-10-06
Copyright (c) 2023 Sogo-Temi C.M., Idowu O.A , Lateef A.M
This work is licensed under a Creative Commons Attribution 4.0 International License.
Abstract
Complementary foods are needed to supplement breast milk with essential nutrients needed for general wellbeing of growing children. In developing countries these children still suffer from nutritional deficiencies which can be ameliorated by development of nutrient dense and acceptable complementary foods from locally available crops. Mixture design of design expert was used to obtain optimized flour blend from plantain, velvet beans and crayfish flours for the production of complementary food which was analyzed for its nutritional and sensory qualities. This was analyzed for its proximate composition, nutritional quality and sensory properties. Result of proximate composition for moisture, crude protein, fat, fibre, ash and carbohydrate was 6.49 %, 12.18 %, 1.50 %, 0.35 %, 2.10 % and 82.93 % respectively. The complementary food had 64.80 % in-vitro protein, 21.80 % starch digestibility, gross energy of 4132.21 Cal, in-vitro total sugar content of 3.29g/100g and a total carbohydrate content of 50.87 %. The complementary food had sensory attributes comparable to commercial complementary foods, was nutrient dense and could be used as alternative to expensive complementary foods. There is therefore need to continue to formulate nutritionally dense and acceptable weaning food from local crops in order to ameliorate the nutritional deficiencies among infants and hence improve their general wellbeing.
References
- Abimbola, N.A., & Serah, O.E., (2020). Evaluation of Nutritional, Microbial and Sensory Attributes of Rice Tuwo Flour Fortified with Soy and Plantain Flour Blends. Journal of Advances in Microbiology, 20(9): 121-129
- Achidi, A.U., Tiencheu, B., Tenyang, N., Womeni, H.M., Moyeh, M.N., Ebini, L.T., and Tatsinkou, F., (2016). Quality Evaluation of Nine Instant Weaning Foods Formulated from Cereal, Legume, Tuber, Vegetable and Crayfish. International Journal of Food Science and Nutrition Engineering, 6(2): 21-31
- Akinsola, A.O., Idowu O.A., Laniran, A.M., Ojubanire B.A., and Oke, E.K., (2017). Development, Evaluation and Sensory Quality of Orange Fleshed Sweet Potato (Ipomoea batatas Lam) Extruded Pasta Products. Croatian Journal of Food Technology, Biotechnology and Nutrition, 212(1-2): p. 83-89.
- AOAC (2015). Official methods of analysis. Association of Analytical chemists. 21st Edition. Washington D.C.; USA
- Codex Alimentarius Commission (2008). Joint Food Agriculture Organization of the United Nations/World Health Organization standards, 20th Edition.
- Codex Alimentarus Commission (1991). Guidelines for the development of complementary foods for older infants and young children. (CAC/GL08-1991): In report of the 19th session. Rome, Italy.10pp
- Disseka, W.K., Faulet, M.B., Kone, F.M.T., Gnanwa, M.J., and Kouame, L.P., (2018). Phytochemical Composition and Functional Properties of Millet (Pennisetum glaucum) Flours Fortified with Sesame (Sesamum indicum) and Moringa (Moringa oleifera) as a Weaning Food. Advances in Research, 15(6): 1-11
- Duru, F.C., Ohaegbulam, P.O., Chukwudi, P.K., & Chukwu, J.C., (2020). Effect of different processing methods on the chemical, functional and phytochemical characteristics of velvet beans (Mucuna pruriens). International Journal of Agricultural Research and Food Production, 5(2): 55-73
- Eboagu, N.C., Odidika, C.C., Ochiagha, K.E., Nwokoye, J.N., & Ekwunife, C.M., (2020). Formulation of Weaning Food from Fonio (Digitaria exilis Stapf) and Soya Bean (Glycine max). Science Journal of Analytical Chemistry, 8(3): 122 – 127
- Elkhalil, E.A.J., El-Tinay, A.H., Mohammed, B.E and Elshesiekh, E.A.E (2001). Effect of malt pretreatment on phytic acid and in vitro protein digestibility of sorghum flour. Food Chemistry, 72:29-32
- Ezeagu, E., Maziya-Dixon, B., and Tarawalli, G., (2003). Seed characteristics and nutrient and antinutrient composition of 12 Mucuna accessions from Nigeria. Tropical and subtropical Agroecosystems. 1: 129-140
- Famakin, O., Fatoyinbo, A., Ijarotimi, O.S., Badejo A.A., and Fagbemi, T.N., (2016). Assessment of nutritional quality, glycaemic index, antidiabetic and sensory properties of plantain (Musa paradisiaca)-based functional dough meals. J Food Sci Technol., 53(11):3865–3875
- FAO (2004) FAO. Available at: http://www.faostat.fao. org (02⁄2008).
- Fasuan, T.O., Fawale, S.O., Enwerem, D.E., Uche, N., and Ayodele, E.A., (2017). Physicochemical, functional and economic analysis of complementary food from cereal, oilseed and animal polypeptide. International Food Research Journal, 24(1): 275-283
- Gemede, H.F., (2020). Nutritional and antinutritional evaluation of complementary foods formulated from maize, pea, and anchote flours. Food Sci Nutr., 1–9
- Haque, M.R., Hosain, M.M., Khatun, H., Alam, R., and Gani, M.O., (2013). Evaluation of nutritional composition and sensory attributes of weaning food prepared from sweet potato and soybean. Bangladesh Research Publications Journal, 8(2): 127 – 133
- Ijarotimi, O. S., & Keshinro, O. O., (2012). Formulation and nutritional quality of infant formula produced from germinated popcorn, Bambara groundnut and African locust bean flour. Journal of Microbiology, Biotechnology and Food Sciences, 1, 1358–1388
- Iwanegbe, I., Jimah, A., & Suleiman, M., (2019). Evaluation of the Nutritional, Phytochemicals and Functional Properties of Flour Blends Produced from Unripe Plantain, Soybean and Ginger. Asian Food Science Journal, 8(1): 1 – 8
- Odenigbo, A.M., Asumugha, V.U., Ubbor, S., and Ngadi, M., (2013). In vitro starch digestibility of plantain and cooking-banana at ripe and unripe stages. International Food Research Journal, 20(6): 3027-3031
- Ojinnaka, M.C., Ebinyasi, C.S., Ihemeje, A., & Okorie, S.U., (2013). Nutritional Evaluation of Complementary Food Gruels Formulated from Blends of Soybean Flour and Ginger Modified Cocoyam Starch. Advance Journal of Food Science and Technology, 5(10): 1325- 1330
- Oladele, E., and Khokhar S. (2011): Effect of domestic cooking on the Polyphenolic Content and Antioxidant Capacity of Plantain (Musa paradisiaca). World Journal Of Dairy and Food Sciences, 6 (2): 189 – 194
- Rajiv, B.P., and Chandrashekharaiah, K.S., (2017). Therapeutic Potential of Tropical Underutilized Legume: Mucuna pruriens. IOSR Journal of Pharmacy, 7 (10): 69 – 77.
- Olaleye, H.T., Oresanya, T.O., & Temituro, E.O., (2020). Quality assessment of weaning food from blends of sorghum, mung beans and orange-fleshed sweet potato. European Journal of Nutrition and food safety, 12 (6): 42 – 52.
- Shane, T.A., and Darren, C.J.Y., (2007). “Feral populations of the Australian Red-Claw crayfish (Cherax quadricariunatus von Martens) in water supply catchments of Singapore” Biology Invasion; 9(8): 943-946.
- Umera, N.N., Oly-Alawuba, N.M., Asouzu, A.I., Ani, P.N., Oluah, C.G.U., & Ezike, C.O., (2020). Assessment of Protein Quality of Complementary Food Made from Maize (Zea mays) Supplemented with Crayfish (Euastacus spp) and Carrot (Daucus carota) Using Albino Rats. Asian Journal of Advanced Research and Reports, 12(3): 1-12
- Vadivel, V., & Janardhanan, K., (2005). Nutritional and antinutritional characteristics of seven SouthIndian wild legumes. Plant Foods for Human Nutrition, 60, 69–75
- Young, V.R., (2001). Protein and amino acids. In: Bowman, B.A., Russel, R.M, Eds. Present Knowledge in Nutrition, 8th Ed. Washington, DC. International Life Sciences Institute. 5:43-58